DE102015103778A1 - A method for outputting an image of an image sequence on a display unit, display device and motor vehicle - Google Patents

Abstract

The invention relates to a method for outputting at least one image (8) of an image sequence on a display unit (3) of a motor vehicle (1), in which an image signal (7) of the image (8) with a horizontal blanking interval (26) and visible line image information (20) and / or with a vertical blanking interval (15) and visible image information (13) for the display unit (3), wherein the horizontal blanking interval (26) by a predetermined first number of clock cycles (24) of clock cycles (23) of a Clock of the display unit (3) and the visible line image information (20) by a predetermined second clock cycle number (25) of the clock cycles (23) are described and / or the vertical blanking interval (15) by a predetermined first line number (27) of lines (16 ) of the image (8) and the visible image information (13) are described by a predetermined second line number (28) of lines (16) of the image (8), and the image signal (7) al s the image (8) on the display unit (3) is displayed, wherein the first clock cycle number (24) depending on the second clock cycle number (25) is predetermined and / or the first number of lines (27) depending on the second number of lines (28) predetermined becomes.

Description

The invention relates to a method for outputting at least one image of an image sequence on a display unit of a motor vehicle. An image signal of the image with a horizontal blanking interval and visible line image information and / or with a vertical blanking interval and visible image information, in particular by a control unit of the motor vehicle, is provided for the display unit. The horizontal blanking interval is described by a predetermined first clock cycle number of clock cycles of a clock of the display unit, and the visible line image information is described by a predetermined second clock cycle number from the clock cycles. Additionally or alternatively, the vertical blanking interval is described by a predetermined first line number of lines of the image and the visible image information is described by a predetermined second line number of lines of the image. The image signal is displayed as the image on the display unit. The invention also relates to a display device for a motor vehicle, as well as a motor vehicle with a display device.

Methods for outputting at least one image of an image sequence on a display unit are known from the prior art. The image is usually provided by an image signal. The image signal is then processed by the display unit and displayed as the image on the display unit. The image signal may, for example, be in the form of a PAL (Phase Alternating Line) signal or an NTSC (National Television Systems Committee) signal or other image signal. The image signal usually provides the image line by line. After each line of the picture, there is a blanking interval with a horizontal synchronization pulse. The blanking interval is needed, for example, in the analog processing of the image signal, so that an electron beam of a picture tube has enough time to move from one end of the line to the beginning of the next line of the picture. Between the horizontal synchronization pulses is visible line image information which describes the visible image line of the image on the display unit. Furthermore, the image signal is characterized in that a vertical blanking interval with a vertical sync pulse follows in the image signal after all the lines of the image have been processed. Due to the vertical synchronization pulse, the display unit is informed that a new image is being displayed. The vertical blanking interval provides time for the analogue picture tube to move the electron beam from, for example, bottom right to top left, thus preparing for displaying the next picture. Although today the processing of the image signal is usually digital, the respective blanking interval has been retained for compatibility reasons. In the present case, the interest is preferably a digital image signal. The digital image signal is displayed as the image on the display unit depending on a clock of the display unit. The clock may be formed, for example, as a quartz oscillator.

Typically, a screen layout to display the image sequence on the display unit with 60 hertz or 60 frames per second (FPS - frames per second). Usually, not 60 images or frames of the image sequence per second are provided by the image signal for this purpose. Often provided, therefore, that the display unit has a buffer and the respective image is displayed several times in succession on the display unit. For example, with a refresh rate of 60 Hertz and a provision of 15 frames per second, the respective picture is displayed four times in succession on the display unit.

In addition, there may be synchronization problems between, for example, a controller providing the image signal and the display unit, and therefore, it can not be precisely determined when the next image of the image sequence is provided. For this reason, for example, three successive images or frames of the image sequence are transmitted to the display unit and stored there in the buffer. Usually, the last of the three stored images is processed several times and displayed on the display unit in order to provide the desired refresh rate.

A disadvantage of the prior art, therefore, is the need for the buffer and the repeated processing of the same image in order to provide the desired refresh rate of the display unit can.

It is the object of the invention to provide a method, a display device and a motor vehicle with which an image signal of an image of an image sequence can be provided more effectively for the output of the image on a display unit of a motor vehicle.

This object is achieved by a method by a display device and by a motor vehicle with the features according to the respective independent claims.

In a method according to the invention, at least one image of an image sequence is output on a display unit of a motor vehicle. It an image signal of the image with a horizontal blanking interval and a visible line image information and / or with a vertical blanking interval and a visible image information, in particular by a control unit of the motor vehicle, provided for the display unit. The horizontal blanking interval is described by a predetermined first clock cycle number of clock cycles of a clock of the display unit, and the visible line image information is described by a predetermined second clock cycle number from the clock cycles. Additionally or alternatively, the vertical blanking interval is described by a predetermined first line number of lines of the image and the visible image information is described by a predetermined second line number of lines of the image. The image signal is displayed as the image on the display unit. An essential idea of the invention is that the first number of clock cycles is specified as a function of the second number of clock cycles and / or the first number of lines is specified as a function of the second number of lines.

The method according to the invention makes it possible for the image signal to be provided more effectively for the display of the image on the display unit.

In the prior art, the clock cycle number of the horizontal blanking interval is defined independently of the clock cycle number of the visible line information. According to the invention, the image signal is provided, for example, such that the display unit requires at least half as long, depending on the clock, for processing the horizontal blanking interval in comparison to the visible line image information. Here, therefore, there is a dependency between the first clock cycle number and the second clock cycle number. It is therefore intended that the display unit be occupied by the, in particular in comparison to the prior art, increasing the clock cycle number for the horizontal blanking interval longer with the processing of a line of the image in the image signal. The length of the horizontal blanking interval or the first number of clock cycles is thus preferably determined so that time passes until the next image for the output is provided on the display unit, in particular by the control unit. In other words, according to the invention, it is provided that the processing of the image takes as long as the first clock cycle number until the next image of the image sequence is made available. It is advantageous that, for example, a repeated processing of the image with the aim of achieving a desired image refresh rate, for example 60 hertz, of the display unit can be dispensed with. Furthermore, the first number of clock cycles can for example be specified in such a way that it is achieved that the next image of the image sequence is ready for output. Caching the display unit with, for example, three consecutive images is thus also unnecessary.

Additionally or alternatively, instead of the horizontal blanking interval and the vertical blanking interval can be adjusted. The vertical blanking interval follows between the visible image area of the image and the next image or image. Typically, the vertical blanking interval is defined by a number of lines of the image. It is therefore provided that the first number of lines is at least half as large as the second number of lines. As a result, the vertical blanking interval, for example, consume or run through so much time or clock cycles until the next image can be provided and / or a multiple representation of the image would be completed as in the prior art. This can be achieved, for example, that the image is displayed twice as long or four times as long as usual in the art.

The definition of how many clock cycles describe the horizontal blanking interval and / or the vertical blanking interval can be specified, for example, in a device driver of the control unit. The control unit is in particular responsible for generating the image signal and providing it to the display unit. Thus, the image signal is adjusted depending on the device driver to the first clock cycle number and / or the first number of lines.

The image signal is present in particular as a digital image signal. The visible line image information is that part of the line image signal of the image signal in which the information for the visible line is contained on the display unit. In the line image information, for example, an information about the brightness of the image and / or the color of the image is included. The length of the line image information or the second number of clock cycles depends on the horizontal resolution of the image or the resolution of the display unit for which the image is provided. The horizontal resolution extends in the line direction or for a viewer standing in front of the image from left to right or right to left. Thus, the control unit or the control unit or a graphics card preferably provides the image in a resolution which is suitable for the display unit. The resolution of the image or the second clock cycle number can also be set in the device driver of the control unit. The specified resolution is dependent, in particular, on the display unit.

The vertical blanking interval is described by the first number of lines. The first number of lines is determined by a predetermined number of lines of Picture described. Each line of the image has a horizontal blanking interval, but each image has the vertical blanking interval, in particular only once. The visible image information is described by a predetermined second line number of lines of the image. The second line number is described by, for example, the vertical resolution of the image or the image visible on the display unit. Thus, the second line number is also set by a desired resolution of the image in the vertical direction. The desired resolution is determined, for example, as already described in the control unit, for example, and is determined in particular such that the resolution is compatible with the display unit.

By adjusting the image signal or generating the image signal with the first clock cycle number and / or the first number of lines, a display time of the image on the display unit can be varied in many ways. The first clock cycle number and / or the first line number are now preferably set so that the image is displayed on the display unit until the next image is provided for output. In particular, the image therefore does not have to be processed a number of times by the display unit in order to be displayed several times on the display unit, as is usually done, in order to be able to provide a desired refresh rate of the display unit.

In a further embodiment, it is preferably provided that the first clock cycle number is determined to be at least as large as the second clock cycle number and / or the first line number is determined to be at least as large as the second line number. Thereby, the time for the processing of the image by the display unit can be further increased compared to the first clock cycle number is determined at least half the size of the second clock cycle number and / or determines the first line number as at least half as large as the second line number becomes. In further embodiments, the first number of clock cycles may be at least one of 0.6, 0.7, 0.8, or 0.9 times the second number of clock cycles. For example, the first number of lines may also be at least 0.6, 0.7, 0.8, or 0.9 times the second number of lines. Again, it is preferable that the first clock cycle number and / or the first line number be set so that the processing of the image signal of the image takes so much time until another image signal of another image can be provided for display on the display unit in the display unit , In the prior art, the horizontal blanking interval is usually defined with a multiple of fewer clock cycles than is the case with the visible line image information.

In a further embodiment, it is preferably provided that the horizontal blanking interval is predetermined by a horizontal front blanking interval and a horizontal rear blanking interval and / or the vertical blanking interval is predetermined by a vertical front blanking interval and a vertical rear blanking interval. The horizontal front blanking interval is located in the image signal for each line of the image behind the visible line image information. The horizontal back blanking interval is located in front of the visible line image information in the image signal of the respective line of the image. The vertical front blanking interval is arranged in the image signal of the image at the end of the image signal of the image or after the visible image information. The vertical back blanking interval is accordingly arranged in the image signal of the image in front of the visible image information. The specification of the first number of clock cycles is provided in particular for the horizontal rear blanking interval, while the specification of the first number of lines is provided in particular for the vertical rear blanking interval. However, the setting of the first number of clock cycles can also be done depending on the horizontal front blanking interval. Likewise, the specification of the first number of lines can be made dependent on the vertical front blanking interval. It is therefore advantageous that the time required by the display unit to process the image signal of the image can be achieved by a variety of changes or adaptation or provision of the image signal.

Furthermore, it is preferably provided that a horizontal synchronization pulse is specified as a part of the horizontal blanking interval and / or a vertical synchronization pulse is specified as part of the vertical blanking interval. In particular, the horizontal sync pulse is placed in front of the visible line image information and causes the display unit to indicate that a new line of the image is provided with the subsequent signal of the image signal. The vertical sync pulse is located in the image signal in front of the visible image information and provides the indication to the display unit that the image or a next image or image will be provided. Thus, starting from the vertical synchronization pulse, a new image begins. Thus, for example, the first clock cycle number can be predetermined such that the horizontal synchronization pulse is at least half as long as the visible line image information. Furthermore, the first number of lines can be set so that the vertical synchronization pulse is at least half as long as the visible image information. Thus, adjusting the time required by the display unit for the horizontal sync pulse and / or the vertical sync pulse may be sufficient can be achieved so that the image is displayed on the display unit as long as desired. Thus, the first number of clock cycles, which preferably depends on the horizontal synchronization pulse, can be adjusted and varied given with the image signal, and likewise the first number of lines can be varied by the vertical synchronization pulse.

Furthermore, it is preferably provided that the horizontal synchronization pulse is given as part of the horizontal back blanking interval and / or the vertical synchronization pulse is specified as part of the vertical back blanking interval. Thereby, the first number of clock cycles can be specified by the clock cycles, which are provided for the horizontal synchronization pulse or for the horizontal rear blanking interval. Additionally or alternatively, the first number of lines may be described by a number of lines of the image provided for the vertical sync pulse or the vertical back blanking interval. As a result, the first number of clock cycles and / or the first number of lines can thus be varied again and, as a result, a time for processing the image signal of the image can be varied and, in particular, determined as desired.

In particular, it is provided that the first cycle number is predetermined or described by the horizontal synchronization pulse and / or the first number of lines is predetermined or described by the vertical synchronization pulse. It is therefore provided in particular that the processing of the image signal of the image is determined by predetermining the number of clock cycles for the horizontal synchronization pulse and / or by the number of lines of the vertical synchronization pulse. Changing the clock cycles for the horizontal sync pulse or changing the lines for the vertical sync pulse in the device driver will not affect the visible image information. But the processing of the image signal of the image is temporally adjusted or preferably extended in time. It is advantageous to describe the first number of clock cycles with the horizontal synchronization pulse and the description of the first number of lines with the vertical synchronization pulse, because the horizontal synchronization pulse and / or the vertical synchronization pulse usually contains no further, for example modulated, information. Therefore, they can be adjusted in length without affecting the quality of the image displayed on the display unit. The visible image information is thus not affected by adjusting the length of the horizontal synchronization pulse and / or the vertical synchronization pulse. Furthermore, it is advantageous that an unmodified display unit can be used by the rod, which does not have to be adapted to carry out the method according to the invention.

Furthermore, it is provided in particular that the first clock cycle number and / or the second clock cycle number and / or the first line number and / or the second line number is determined by a device driver of the display unit. The device driver is a computer program or a software module that enables and controls the interaction with devices connected to the display unit, in particular a control unit of the motor vehicle. The device driver thus sets up on the interface of the control unit and provides the control unit with the information needed to generate and provide the image signal for the display unit in such a way that it can be output. The device driver must therefore be able to connect or set up on the available interface of the control unit and on the other hand, the device driver must have the specification of the display unit. The specification includes, for example, what resolutions or image ratios can be provided by the display unit. By the device driver, the image signal can thus be provided for the display unit so that the display unit can process this preferably error-free. By determining the first number of clock cycles and / or the first number of lines in the device driver, in particular in a configuration file of the device driver, the temporal length of the processing of the image signal of the image by the display unit can be determined by simple means. In particular, it is therefore not necessary to modify a firmware of the display unit. The display unit can therefore be used, for example, unmodified as a display unit from the bar.

Furthermore, it is preferably provided that the display unit is connected to a control unit of the motor vehicle, and the device driver is provided in the control unit. The control unit may for example be arranged separately in the motor vehicle or integrated in a camera of a camera system of the motor vehicle. The display unit receives the image signal, in particular provided by the control unit. Thus, it is advantageous that the device driver is present in the control unit. Furthermore, the device driver is in particular adapted to an interface, in particular a software interface, but possibly also a hardware interface of the control unit, and thus provides the control unit with the functionality to generate the image signal for the display unit and to provide it.

Preferably, it is provided that the clock of the display unit is synchronized with another clock of a connected to the display unit control unit of the motor vehicle. By synchronizing the clock and the other clock is advantageous because it can be ensured that immediately after the processing of the image by the display unit, another image can be provided by the control unit. In particular, it can thus be made possible for the next image to be provided for the display unit in the exact clock cycle. Thus, in particular, the caching of the subsequent images or of the preceding images carried out in the prior art is omitted in order to be able to ensure that a further image is already available if the image has been processed.

In a further embodiment it can be provided that the synchronization of the clock of the display unit and of the further clock of the control unit is carried out by means of a phase locked loop. The phase-locked loop (PLL) refers to an electronic circuit arrangement which influences the phase position and, associated therewith, the frequency of a variable oscillator via a closed loop in such a way that the phase deviation between an external reference signal and the oscillator or a signal derived therefrom is as constant as possible is. It is therefore provided that the further clock generator provides the image signal with as much of the same phase as possible, as the image signal is processed by the clock of the display unit.

It is preferably provided that the image is output directly after the transmission of the image signal to the display unit on the display unit. Preferably, therefore, no intermediate storage of the image signal is provided. The image signal is therefore preferably processed directly by the display unit after receiving and output on the display unit. Characterized in that the time required by the display unit for processing the image signal of the image is determined depending on the first clock cycle number and / or the first number of lines, a desired duration for processing the image signal can be specified by the display unit. This duration can be predetermined, for example, so that immediately after the processing of the image signal of the image, another image signal of another image can be processed immediately afterwards. Thus, the caching of a plurality of images in a cache of the display unit may become unnecessary. Furthermore, by adjusting the duration of the processing of the image signal, it is also possible to enable the image to be displayed as long as it would be the case with a multiple display of the image in order to arrive at the desired image refresh rate. If the image is to be displayed several times in succession as described in the prior art in order to achieve the desired image refresh rate, then this image must be stored in a temporary memory of the display unit in order to maintain this for the other display intervals.

The invention also relates to a display device with a display unit and in particular a control unit, wherein the display device is designed to carry out a method according to the invention. The control unit may for example be integrated in the display unit or in a camera of the motor vehicle or be present as a separate unit. The control unit is connected to the display unit. The connection can be made, for example, wirelessly or with a cable.

Furthermore, it can be provided that the display unit is designed as a liquid crystal display. The liquid-crystal display (LCD) is a display or screen whose function is based on the fact that liquid crystals affect the polarization direction of light when a certain amount of electrical voltage is applied. The processing of image signals by the liquid crystal display is carried out in particular digitally.

It is preferably provided that the display unit is designed for buffer-free output of the image upon receipt of the image signal. This means that the display unit processes the image signal of the image directly, and thus outputs or displays on the display unit. This also means that each bit of the image signal is output directly on the display unit without being put into a buffer. Preferably, however, the display unit may have a main memory which, however, does not necessarily have to be designed to accommodate the entire image signal of the image. Due to the bufferless output, the display unit can be provided more cost-effectively and functional security mechanisms such as a frame counter or a frame counter or artificial pixels of the image are not required. Furthermore, this can reduce the complexity of the display unit in comparison to the prior art. Thus, for example, in the display device according to the invention lower processor resources and less development effort needed to provide the display device according to the invention can.

An inventive motor vehicle, in particular a passenger car, comprises a Display device according to the invention or an advantageous embodiment thereof.

The preferred embodiments presented with reference to the method according to the invention and their advantages apply correspondingly to the display device according to the invention and to the motor vehicle according to the invention.

Further features of the invention will become apparent from the claims, the figures and the description of the figures. The features and feature combinations mentioned above in the description, as well as the features and combinations of features mentioned below in the description of the figures and / or shown alone in the figures, can be used not only in the respectively specified combination but also in other combinations or in isolation, without the frame to leave the invention. Thus, embodiments of the invention are to be regarded as encompassed and disclosed, which are not explicitly shown and explained in the figures, however, emerge and can be produced by separated combinations of features from the embodiments explained. Embodiments and combinations of features are also to be regarded as disclosed, which thus do not have all the features of an originally formulated independent claim.

The embodiments of the invention will be explained in more detail with reference to schematic drawings.

Showing:

1 a schematic plan view of an embodiment of a motor vehicle according to the invention with a display device;

2 a schematic representation of an image signal of an image of an image sequence; and

3 a schematic representation of the image with a horizontal blanking interval and a vertical blanking interval.

In the figures, identical or functionally identical elements are provided with the same reference numerals.

In 1 is a schematic plan view of a motor vehicle 1 with a display device 2 represented according to an embodiment of the invention. The display device 2 includes in the exemplary embodiment a display unit 3 and a control unit 4 , The display unit 3 is in the embodiment in a cockpit 5 in an interior 6 of the motor vehicle 1 arranged. The arrangement of the display unit 3 is however diverse within the interior 6 possible. The control unit 4 is with the display unit 3 connected. The connection can also be provided, for example, wirelessly. The connection can also be made via a CAN bus or a FlexRay bus of the motor vehicle 1 respectively. The control unit 4 may be formed as in the embodiment as a separate unit or in the display unit 3 be integrated. Furthermore, the control unit 4 for example, in a camera of a camera system of the motor vehicle, not shown 1 be integrated. The arrangement of the control unit 4 is therefore also possible in many ways.

2 shows an image signal 7 a picture 8th a picture sequence. According to the embodiment, the image signal becomes 7 from the control unit 4 provided and as the picture 8th on the display unit 3 displayed.

The image signal 7 Repeats itself as shown for the picture 8th subsequent next picture. This is called an update cycle 9 described. The update cycle 9 takes place instead of the picture 8th to the next picture of the picture sequence. The image signal 7 has a vertical sync pulse 10 on. The vertical synchronization pulse 10 is at the beginning of the image signal 7 of the picture 8th , After the vertical synchronization pulse 10 follows a vertical posterior black shoulder 11 of the image signal 7 , The vertical synchronization pulse 10 and the vertical posterior black shoulder 11 together make up a vertical back blanking interval 12 , After the vertical posterior black shoulder 11 follow the individual lines of a visible image information 13 and a respective horizontal blanking interval 26 , The visible image information 13 includes the information of the image signal 7 which are on the display unit 3 is displayed visibly. The visible image information 13 So for example, includes information about the brightness of the image 8th and / or to color values of the image 8th , After the visible image information 13 follows a vertical front blanking interval 14 , The vertical front blanking interval may also be referred to as a vertical front black shoulder. The vertical rear blanking interval 12 and the vertical front blanking interval 14 together result in a vertical blanking interval 15 ,

The picture 8th is processed line by line. The picture 8th is through a lot of lines 16 characterized. The line 16 the visible image information 13 each has a horizontal synchronization pulse 17 on. After the horizontal synchronization pulse 17 follows a horizontal posterior black shoulder 18 , The horizontal posterior black shoulder 18 and the horizontal sync pulse 17 together form a horizontal rear blanking interval 19 , After the horizontal back blanking interval 19 follows a visible line image information 20 , The visible line image information 20 of the image signal 7 represents the information of the picture 8th ready, which on the display unit 3 is visible and thus by a user of the display unit 3 can be seen. The visible line image information 20 contains information about the brightness and color of the individual pixels in the respective visible line 21 the visible image information 13 , To the visible line image information 20 This is followed by a horizontal front blanking interval 22 , which can also be called a horizontal front black shoulder.

The horizontal synchronization pulse 17 , the horizontal back black shoulder 18 , the visible line image information 20 and the horizontal front blanking interval 22 are each by clock cycles 23 a clock of the display unit 3 given in their length in time. When processing the image signal 7 through the display unit 3 becomes the image signal 7 depending on the clock of the display unit 3 evaluated. The image signal 7 in particular by a further clock of the control unit 4 generated. The generation or generation of the image signal 7 in the control unit 4 occurs depending on the device driver of the display unit 3 in the control unit 4 , When generating the image signal 7 For example, consider that a first number of clock cycles 24 as at least as large as a second clock cycle number 25 is determined. By the first number of clock cycles 24 becomes a temporal length of the horizontal blanking interval 26 described. The horizontal blanking interval 26 includes the horizontal rear blanking interval 19 and the horizontal front blanking interval 22 , According to the embodiment of 2 becomes the first number of clock cycles 24 only by the horizontal sync pulse 17 specified. Thus, a time length for the processing of the image signal 7 through the display unit 3 only by the first number of clock cycles 24 , that is, the number of clock cycles of the horizontal sync pulse 17 specified. The second clock cycle number 25 describes the number of clock cycles of the visible line image information 20 , The ratio of the first number of clock cycles 24 and the second clock cycle number 25 Thus, according to the embodiment, it refers to a ratio between a clock cycle number of the horizontal synchronization pulse 17 and the visible line image information 20 , The ratio of the first number of clock cycles 24 and the second clock cycle number 25 For example, it may be configured such that the first number of clock cycles 24 at least one 0.5-tray, at least one 0.6-tray, at least one 0.7-tray, at least one 0.8-tray, at least one 0.9-tray, at least one 1.1-tray, at least one 1.2-tray, at least a 1.3 tray, at least a 1.4 tray, at least a 1.5 tray, at least a 1.6 tray, or at least a 1.7 tray second clock cycle count 25 is. The second clock cycle number 25 is determined by a predetermined resolution of the image 8th set in the horizontal direction. This is usually done depending on a specification of the display unit 3 and the device driver of the display unit 3 , The first number of clock cycles 24 However, it can be modified in many ways. By determining or specifying the first clock cycle number 24 an influence can be made on how long or what time the display unit 3 depending on the clock for processing the image signal 7 or more precisely the line 16 needed.

Additionally or alternatively, a first number of lines 27 as at least as large as a second number of lines 28 preferably when generating the image signal 7 certainly. The first number of lines 27 describes the number of lines 16 the vertical blanking interval 15 , In particular, the first number of lines describes 27 according to the embodiment of 2 only the number of lines 16 of the vertical synchronization pulse 10 which of the vertical blanking interval 15 is included. The second number of lines 28 refers to the number of lines 16 the visible image information 13 , The first number of lines 27 , that is the number of lines 16 , which for the vertical synchronization pulse 10 especially in the generation of the image signal 7 in the control unit 4 is also an influence on the time duration, which for the processing of the image signal 7 through the display unit 3 is needed. Will be the first number of lines 27 So increased, so must more clocks or clock cycles 23 be broken and the time to process the image signal 7 of the picture 8th lengthens. This will make the picture 8th longer on the display unit 3 displayed.

3 shows the picture 8th , Furthermore, it is shown schematically how much time through the processing of blanking intervals 15 . 26 of the image signal 7 of the picture 8th passes. The blanking intervals are around the visible image information 13 arranged. The blanking intervals 15 . 26 are part of the image signal 7 and accordingly have a predetermined number of clock cycles 23 on which by the display unit 3 have to be processed. The blanking intervals 15 . 26 contain in particular no visible image information 13 and therefore will not be on the display unit 3 displayed. In particular, on the display unit 3 only the visible image information 13 displayed. 3 shows the arrangement of the vertical rear blanking gap 12 and the vertical blanking interval 14 , Further shows 3 the arrangement of the horizontal rear blanking interval 19 and the horizontal front blanking interval 22 , If, as in 2 described, the first number of clock cycles 24 only by the horizontal synchronization pulse 17 is set, so changes when adjusting the first clock cycle number 24 only the temporal length of the horizontal back blanking interval 19 , This also means that the horizontal front blanking interval 22 this remains unchanged. In addition or alternatively, this is the case when the first number of lines 27 through a number of lines 16 of the vertical synchronization pulse 10 is given. When changing the first number of lines 27 So changes the length of the vertical back blanking interval 12 while the temporal length of the vertical front blanking interval 14 remains unchanged.

The process according to the invention proceeds, for example, as follows. The image signal 7 is in the control unit 4 depending on the device driver of the display unit 3 generated. The image signal is generated such that the first clock cycle number 24 and / or the first number of lines 27 so great is that when processing the image signal 7 through the display unit 3 In particular, just as much time is spent as needed to get the next image, which is from the image 8th is different for the display unit 3 to be able to provide. So it is preferably intended that thereby the picture 8th only once on the display unit 3 must be displayed, but still a refresh rate of, for example 60 Hertz by the clock of the display unit 3 may be predetermined, although, for example, a camera connected to the control unit 4 is connected, can only provide images of the image sequence with, for example, 15 hertz or 30 hertz. If the control unit 4 the image sequence to the display unit 3 passes without the first clock cycle count 24 and / or the first number of lines 27 changed, in particular increased, it has the consequence that each image of the image sequence several times from the display unit 3 must be processed and thus several times on the display unit 3 must be displayed. By adjusting, in particular enlarging, the first number of lines 27 and / or the first number of clock cycles 24 this can be avoided. The processing of the picture 8th through the display unit 3 then preferably takes just as long until the next image is provided. Are the pictures from the camera, for example, with 15 Hertz the control unit 4 provided, the image signal 7 depending on the device driver in the control unit 4 so generated or adapted that the processing of the image signal 7 of the picture 8th in the display unit 3 four times as long. This allows the display unit 3 be provided with a refresh rate of 60 hertz, without the image signal 7 of the picture 8th must be processed several times.

The display unit 3 is preferably formed without a buffer. This means that the picture signal 7 directly in the display unit 3 is processed. By modifying the image signal 7 depending on the device driver in the control unit 4 can the picture signal 7 be provided such that the latching of the image signal 7 is unnecessary. In particular, however, it is provided that the clock of the display unit 3 and another clock of the control unit 4 be synchronized with each other. The synchronization can be done for example by means of a phase-locked loop.

Preferably, the display unit 3 designed as an unmodified standard device. A firmware of the display unit 3 is thus in particular unchanged with respect to the delivery status. The inventive method for outputting the image 8th is therefore based in particular only on the adaptation of the image signal 7 in the control unit 4 depending on the device driver of the display unit 3 , In particular, the device driver is modified to the first number of clock cycles 24 and / or the first number of lines 27 to pretend.

Claims (15)

Method for outputting at least one image ( 8th ) of an image sequence on a display unit ( 3 ) of a motor vehicle ( 1 ), in which an image signal ( 7 ) of the picture ( 8th ) with a horizontal blanking interval ( 26 ) and visible line image information ( 20 ) and / or with a vertical blanking interval ( 15 ) and a visible image information ( 13 ) for the display unit ( 3 ), the horizontal blanking interval ( 26 ) by a predetermined first number of clock cycles ( 24 ) of clock cycles ( 23 ) of a clock of the display unit ( 3 ) and the visible line image information ( 20 ) by a predetermined second clock cycle number ( 25 ) of the clock cycles ( 23 ) and / or the vertical blanking interval ( 15 ) by a predetermined first number of lines ( 27 ) of lines ( 16 ) of the picture ( 8th ) and the visible image information ( 13 ) by a predetermined second number of lines ( 28 ) of lines ( 16 ) of the picture ( 8th ) and the image signal ( 7 ) than the picture ( 8th ) on the display unit ( 3 ), characterized in that the first clock cycle number ( 24 ) depending on the second clock cycle number ( 25 ) and / or the first number of lines ( 27 ) depending on the second number of lines ( 28 ) is given. Method according to claim 1, characterized in that the first number of clock cycles ( 24 ) as at least as large as the second clock cycle number ( 25 ) and / or the first number of lines ( 27 ) as at least as large as the second number of lines ( 28 ) is determined. Method according to claim 1 or 2, characterized in that the horizontal blanking interval ( 26 ) by a horizontal front blanking interval ( 22 ) and a horizontal rear blanking interval ( 19 ) is specified, and / or the vertical blanking interval ( 15 ) by a vertical front blanking interval ( 14 ) and a vertical back blanking interval ( 12 ) is given. Method according to one of the preceding claims, characterized in that a horizontal synchronization pulse ( 17 ) as part of the horizontal blanking interval ( 26 ) and / or a vertical synchronization pulse ( 10 ) as part of the vertical blanking interval ( 15 ) is given. Method according to Claims 3 and 4, characterized in that the horizontal synchronization pulse ( 17 ) as part of the horizontal back blanking interval ( 19 ) and / or the vertical synchronization pulse ( 10 ) as part of the vertical back blanking interval ( 12 ) is given. Method according to claim 4 or 5, characterized in that the first number of clock cycles ( 24 ) by the horizontal synchronization pulse ( 17 ) and / or the first number of lines ( 27 ) by the vertical synchronization pulse ( 10 ) is given. Method according to one of the preceding claims, characterized in that the first number of clock cycles ( 24 ) and / or the second clock cycle number ( 25 ) and / or the first number of lines ( 27 ) and / or the second number of lines ( 28 ) by a device driver of the display unit ( 3 ) is determined. Method according to claim 7, characterized in that the display unit ( 3 ) with a control unit ( 4 ) of the motor vehicle ( 1 ) and the device driver in the control unit ( 4 ) provided. Method according to one of the preceding claims, characterized in that the clock of the display unit ( 3 ) with another clock one with the display unit ( 3 ) connected control unit ( 4 ) of the motor vehicle ( 1 ) is synchronized. A method according to claim 9, characterized in that the synchronization of the clock of the display unit ( 3 ) and the further clock of the control unit ( 4 ) is performed by means of a phase locked loop. Method according to one of the preceding claims, characterized in that the image ( 8th ) after transmission of the image signal ( 7 ) to the display unit ( 3 ) directly on the display unit ( 3 ) is output. Display device ( 2 ) with a display unit ( 3 ) which is adapted to perform a method according to any one of the preceding claims. Display device ( 2 ) according to claim 12, characterized in that the display unit ( 3 ) is formed as a liquid crystal display. Display device ( 2 ) according to claim 12 or 13, characterized in that the display unit ( 3 ) for bufferless output of the image ( 8th ) after receipt of the image signal ( 7 ) is trained. Motor vehicle ( 1 ) with a display device ( 2 ) according to any one of claims 12 to 14.

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